Note: Descriptions are shown in the official language in which they were submitted.
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APPARATUS AND METHOD FOR PERFORATING AND STIMULATING
A SUBTERRANEAN FORMATîON
BACKGROUND OF THE INVENTION
FIELD OF INVENTION:
The present invention relates to an apparatus and method for
perforatin~ well casing andJor a subterranean forrnation(s), and more
particularly, to suc~ an apparatus and process wherein a propellant is
employed to substantially simultaneously enhance the effectiveness of such
perforations and to stimulate the subterranean forrnation(s).
DESCRIPTION OF RELATED ART:
Individual lengths of relatively large diameter metal tubulars are.seoured
together to form a casing string which is positioned within a subterranean weil
bore to inaease the integrity of the well bore and provide a path for producing
fluids to the surface. Conventionally, the casing is cemented to the well bore
face and subsequently perforated by detonating shaped explosive charges.
These perforations extend through the casing and ~i"e"t a short distance
into the formation. In certain instances, it is desirable to conduct such
perforating operations with the pressure in the well bein~ overbalanced with
respect to the formation pressure. Under overbalanced conditions, the well
pressure eYG~eds the pressure at which the fo~l"alion will fracture, and
therefor, hydraulic fracturing occurs in the vicinity of the perforations. As anexample,-the perforations may penetrate several inches into the formation,
and the fracture network may extend several feet into the formation. Thus, an
enla, yed conduit can be aeated for fluid flow between the formation and the
well, and well productivity may be significantly inueased by deliberately
inducing fractures at the perforations.
When the pe, foralil ,9 process is complete, the pressure within the well
is allowed to decrease to the desired operating pressure for fluid production
or injection. As the pressure decreases, the newly aeated fractures tend to
close under the overburden pressure. To ensure that fractures and
pe. fi~ralio"s remain open conduits for fluids flowing from the formation into to
the well or from the well into the formation, partia~ e material or proppants
3~ are convenl-o~ally inje~ted into the perforations so as to prop the fractures
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open. In addition, the particulate material or pioppant may scour the surface
of the perforations and/or the fractures, thereby enlarging the conduits aeated
for enhanced fluid flow. The p,.,ppanl can be ei"placed either simultaneously
with formation of the perforations or at a later time by any of a var~ety of
methods. For example, the lower portion of the wellbore can be filled with a
sand slurry prior to pei rora~ion. The sand is subsequently driven into the
perforations and fractures by the pressured fluid in the wellbore during
conventional overbalanced perforating operations.
As the high pressure pumps necessary to achisve an overbalanced
condition in a well bore are relatively expensive and time c~nsumin~ to
operate, gas propellants have been utilized in conjunction with perforating
techniques as a less expensive alternative to hydraulic fracturing. Shaped
explosive charges are detonated to form perforations which extend through
the casing and into the subterranean formation and a propellant is ignited to
pressurize the perforated subterranean interval and propagate fractures
therein. U. S. Patent Nos. 4,633,951, 4,683,943 and 4,823,87~ to Hill et al.
desaibe a method of fracturing subterranean oil and gas producing
formations wherein one or more gas generatin~ and pe,for~ling devices are
positioned at a selected depth in a wellbore by means of by a section of
wireline which may also be a consumable electrical signal transmitting cable
or an ignition cord type fuse. The gas generating and pe, rorating devic~ is
comprised of a plurality of gener~lor sections. The center ssction includes a
plurality of axially sp~ce~ and radially directed pe, ror~in~ shaped charges
which are i"lercor,ne.led by a fast burning fuse. Each g s genera~or section
includes a cylindrical thin walled outer canister member. Each gas generator
section is provided with a sl ~hstantially solid mass of gas generating
propellant which may inc~ude, if necqss~ry, a fast bum ring disposed adjacent
to the canister member and a relatively slow bum core portion within the
confines of ring. An elongated bore is also provided through which the
wireline, electrical conductor wire or fuse which leads to the center or
perforating charge section may be extended. Primacord fuses or similar
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igniters are disposed near the cira~mference of the canister members. Each
gas generator section is simultaneously ignited to ger,erale combustion
gasses and perforate the well casin~. The casing is pe,~otated to form
apertures while generation of gas commences virtually simultaneously.
Detonation of the perforating shaped charges occurs at approxi",ately 110
milliseconds after ignition of gas generating unit and that from a period of
about 110 milliseconds to 200 milliseconds a sul~st~ntial portion of the total
flow through the perforations is gas generated by gas çenera~ing unit.
U. S. Patent No. 4 391 337 to Ford et al. discloses an integrated jet
perforation and controlled propellant fracture device and method for
enhancing produ~tion in oil or gas wells. A canister c~n~ains a plurality of
shaped charge grenades around which is pacJced a gas propellant material so
as to forrn a solid fuel pack.
U. S. Patent No. 5 355 802 to Petijean d2sc ibes a method and
apps~ ~us for pe, t~ ~ling a fo" "alio" surrounding a wellbore and initiating and
propagating a fracture in the formation to stimulate hydroca, ~on production
from the wellbore. A tool includes at least one oriented shaped charge which
is connected to detonator via a firing cord. At least one propellant generating
canridge is also positioned within tool and is connected to wireline cable
through delay box via wires and cord.
U. S. Patent No. 4 253 523 to Ibsen disrloses a method and apparatus
for well perforations and fracturing operations. A pe, toraling gun assembly
is comprised of a plurality of shaped cl,ar~cs positioned in sp~c~d-apart
relationship to each other in an elongated cylindrical carrier. The spaces in
the carrier between the shaped ~ ,arges are filled with a secondary explosive
such as an activated ammonium nitrate.
U. S. Patent No. 5 005 641 to Mohaupt disrloses a gas generating tool
for generate a large quantity of high pressuro gases to stimulate a
su~te" c"~ean formation. The tool comprises a carrier w frame having a series
of staggered openings spaced longitudinally along the tubular member.
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Carrier receives a charge of propetlant material which has a passage throush
which an ignition tube is inserted.
However none of these prior art devices which n tili~ed propellants in
conjunction with perforatin~ devices have proved to provide completely
satisfactory results. Thus a need exists for an apparatus and method for
perforating and stimulating a subterranean formation which provides for
improved communication between the wellbore and the subterranean
formation penetrated thereby.
Thus it is an object of the present invention to provide an apparatus
and method for perforating and stimulating a subterranean formation which
provides for improved communication between the wellbore and the
subterranean formation penetrated thereby.
It is also object of the present invention to provide an apparatus for
p~rtoratiog and stimulating a su~tei,anean fo""ation which is relatively simple
tS in design and can be readily employed with a variety of perforating gun
designs.
It is a,)other object of the presenl invention to provides an appa(alus for
perforating and stimulating a subterranean fo"nation which is substantially
destroyed upon firing thereby eliminating the need to retrieve the apparatus
from the well.
It is a further obiect of the present invention to provide an apparatus for
perforating and stimulating a subterranean formation which provides
repeatable bums of the propellant component of the apparatus.
It is still a fu ther object of the present invention to provide an apparatus
for perforating and stimulating a su6te"anean fo"nalioo which uses
perforating charges of lesser energy than previously employed.
SUMMARY OF THE INYENTION
To achieve the foregoing and other objects, and in acoordance with the
purposes of the present invention as e"lbo~l;ed and broadly des~ ibed herein
one characterization of the present invention co",prises an apparatus for
pe, rorating a su6~e" dnean fomlation which cG~ rises one or more explosive
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c~arges a shell of propellant and a detonator ballistically connected to the
charges. The one or more explosive charges are positioned within the shell
of propellant.
Another characterization of the present invention comprises an
apparatus for pe,rora~ing a subterranean formation comprising a carrier at
least one shaped charge positioned within the carrier and a sheath of
propellant material subs~an~ially encircling the et least one shaped charge.
Yet another characterization of the ~resent invention comprises a
i"eU)od of pelruldting a sul~lei,anean formation which is penetrated ~y a well
~ore having casing positioned therein so as to establish fluid communication
between the formation and the well bore. ~he rnethod comprises detonating
a perforating charge in the well bore thereby igniting a propellant material
which is interposed between the per~orating charge and the casing and
perrorating the casing.
1~ A further characterization of the present invention is a method of
perforating a subterranean formation which is penelrated by a well bore
having casing positioned therein so as to est~hlish fluid communication
between the fo""d~ion and the well bore. The method c~",p,ises positioning
a sleeve of propellant material substantially around at least one explosive
charge and detonating the explosive charge so as to form pe"ùrations
through the casing and into the formation. The detona~ion of the explosive
charge ignites the propellant material thereby fo"",ng gases which clean the
pe, fo(ations and which extend fluid communication between the formation and
the well bore.
2~ A still funher characterization of the present invention is an
improvement to a method of perforating and stimulating a subte"anean
fo,,,,a~,û,) which is pene~(a~ed by a well bore having casing positioned thereinso as to establish fluid communication between the formation and the well
bore. A perforating charge is detonated in the well bore thereby igniting a
propellant material. The improvement comprises tisintegrating an apparatus
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which contains the perforating cJlarge upon detonation of the perforating
charge.
A still further characterization of the present invention is a kit for an
apparatus for perforating and stimulating a s~lbte"a.)ean formation which
co",prises an apparalus for pe,rordling a subterranean formation which has
at least one shaped charge and a sleeve of propellant adapted to positioned
around the a~pardtus.
BRIEF DESCRIPTION OF THE DRAWINGS
~he acco" ,panying drawings whictl are il ~, IJGrdted in and form a part
of the specification illustrate the embodiments of tne present invention and
~ogel~ ,er with the des~ iption serve to explain the principles of the invention.
In the drawings:
FtG. 1 is a cross sectional view of the Qpparal~Js of the present
invention as positioned within a well pene~atin,~ a su~tei. an-,an formation
FIG. 2 is a aoss sedional view of the appara~.ls of one embodiment of
the present invention;
FIG. 3 is a cross sectional view illuslraling the spatial relationships
between the certain co",pGnent parts of the appa(atus of the present invention
taken along line 3-3 of FIG. 2;
FIG. 4 is a partial cross sectional view of a perforating charge as
connected to a detGnati,)~ cord;
FIG. S is a pe,specli~e view of one e,nbod;.,~en~ of the propellant sleeve
of the apparatus of the present invention which is ill~JslrateJ in FIG. 2;
FIG. 6 is a cross section of a portion of a detonatin~ system suitable for
use in the present invention;
FIG. 7 is a perspective view of another embodiment of the propellant
sleeve of the ~ppSildl.US of the present invention which is illusl,a~d in FIG. 2;
FIG. 8 is a cross se~tional view of the propellant sleeve taken along line
8-8 of FIG. 7;
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FIG. 9 is a uoss sectional view of another embodiment of a propellant
sleeve utilized in the apparatus of the present invention which is illustrated in
FIG. 2;
FIG. 10 is a cutaway view of the prepeliant sleeve ei"bodiment depicted
in FIG. 9 which illustrates the interior wall of the sleeve; and
FIG. 11 is a aoss sectional view of another embodiment of the
apparatus of the present invention.
DESCRIPTION OF THE PREFE~RED EMBODIMENTS
As illustrated in FIG. 1 a well 10 having a casing 12 which is se~ured
therein by means of cement 13 extends from the surface of the earth 14 at
least into a subterranean formation 16. One or more perforating and
propellant apparatus 20 of the present invention are secured to the lower end
of tubing string 18 and lowered into well 10. The upper most apparatus 20 as
positioned within well 10 may be secured directly to the end of tubin~ string
18. A ta, Idei" sub 60 may be utilized to secure ~ppa, atus 2~ together while
a bull plug 66 may be secured to the te~ninal end of the lowermost apparatus
20. Any suitable means such as a packer 21 may be empioyed to isolate the
portion of well 10 adjacent interval 16 if desired. A tubing string may be
utilized to position and suppOn the apparatus of the present invention within
a well bore. Tubing will preferably be employed to convey several apparatus
20 into the same well bore. AJternatively a wireline slick line coil tubing or
any other suitable means as will be evident to a skilled artisan may be used
to position and support one or more apparatus 20 within a well bore.
Ref~l, ing now to FIG. 2 the pe, rolating and propellant apparatus of the
present invention is iilustrated generally as 20 and has one end thereof
secured to a tand~i" sub 60 while the other end ll ,-~r~of is secured to a bull
plug 66. A p~, rorating charge carrier 22 is positioned betvleon tandem sub
60 and bull plug 66 and is secured tnereto by any suitable means such as by
mating screw ~1 lreads 23 and 24 which are provided in the intemal surface of
carrier 22 ad acent each end tnereof witn cer, espe"ding threads 61 and 67 of
tande", sub 60 and bull plug 66 respectively. O-rings 70 provide a fluid tight
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seal beh~een c~rrier 22 and tandem sub 60 while O~ings 74 provide a fluid
tight seal between carrier 22 and bull plug 66. Carrier 22 may be a
commercially available carrier for perforating charges and contains at least
one conven~ional pe, roraling dlarge 40 capable of creating an aperture in the
carrier wall 30 well casing 12 and a portion of the adjacenl subterranean
fomlation 16. A pe, ~oraLing charge tube 34 is positioned within carrier 22 and
has at least one relatively large aperture or opening 3~ and a plurality of
smaller apertures or openings 36 therein. Openings 35 in the wall of charge
tube 34 may be spaced both vertically along and angularly about the axis of
the tube. Charge carrier 22 and perforating charge tube 34 have generally
elongated tubular conf~gurations. A lined pe, rorating charge 40 h2s a small
end 46 secured in an aperture or opening 36 in pei rora~ing charge tube 34
as described below and a large end 48 aligned with and protruding through
opening or aperture 35 in tube 34. At least one lined pe"Grdting charge 40
1 5 is mounted in pe~ ru~ dting charge tube 34. A detol-ali"g cord 86 is connected
to a de~. ,a~or above tandem sub 60 to the small end 46 of each perforating
charge 40 and to end cap 68 in bull plug 66. One or more additional
combinations of a perforating charge carrier booster transfer and a tandem
sub could be mounted above carrier 22. Tube aligr""enl end plates 50
function to align charge tube 34 within carrier 22 so that the front of each
charge is adj~cent a scallop 27 in the wall of carrier 22.
If multiple c~,arges are present they may be sp~eed vertically along and
angularly about the axis of the carrier. The chargs density is an appropriatc
density determined by methods known to those skilled in the art. Common
charge densities range betv~leen two and twenty four per fooL Detonating cord
8~ connects a booster transfer (not ill~ cl~) In tande", sub 60 above carrier
22 all charges 40 and end cap 68 in bull plug 66.
As illustrated in FIG. 3 brackets 80 on the small end 46 of lined
p6l~urdlillg charge 40 extend through opening 36 in charge tube 34. A clip 82
secures punch charge 40 to charge tube 34. Detonati"g cord 86 is threaded
through a space 84 bet~,veen brackets 80 and c~ip ~2. Charge tube 34 is
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mounted in carrier 22 so that the small end 46 of charge 40 is adjacent scallop
27 in carrier 22.
Referring to FIG. 4 a typical perforating charge is illustrated ~enerally
as 40. A highly compressed explosive 41 partially fills perforating charge
case 42. Liner 43 covers the exposed surface of the explosive. The liner 43
is co""~only metallic and serves to focus the energy of the charge and enable
the charge to pe,rorate a well casing.
In accordance with the present invention a sleeve 90 which has a
generally tubular configuration (FIG. 5) is pssitioned around perforating
charge carrier 22 during manufacture of the pc.f~,raling and propellant
apparatus 20 of the present invention or during final assembly thereof which
may take place at the well site. As assembled (FIG. 2) sleeve 90 is secured
in posilioned around perforating cnarge carrier 22 at one end by tandem sub
60 and by bull plug 66 at the other end. Tandem sub 60 and bull plug 66 may
be sized to have an external diameter grealer than sleeve 90 so as to inhibit
damage to sleeve 90 during positioning within a well bore. Alternatively
protective rings or the like (not illustrated) which have a larger external
diameter than sleeve 90 may be inserted between tande"- sub 60 bull plug
66 and sleeve 90 during manufacture or final asse"~bly of the apparatus of the
present invention so as to inhibit damage to sleeve 90. Sleeve 90 may extend
the entire clis~ance between tandem sub 60 and bull plug 66 or a ponion
thereof. Sleeve 90 is constructed of a water repellant or water proof
propellant material whic;h is not physically effe~led by hydl 05talic pressures
co""l,only observed during perforation of a slJbte"anean formation(s) and is
unreactive or inert to almost all fluids in particular those fluids encountered
in a subterranean well bore. Preferably the propellant is a cured epoxy or
plastic having an oxidi~er incor~,orated therein such as that commercially
available from HTH Technical Services Inc. of Coeur d Alene Idaho.
Any suitable detdnating system may be used in conjunction with the
p6~ rordting and propeltant apparatus 20 of the prescnt invent,on as will be
evident to a skilled artisan. An example of such a suitable detonating system
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~O
suit~le is illustrated in FIG. 6. Vent housing 210 is capable of attachment to
the end of a tubing string 211 or wireline (not shown). A vent 2~ 2 is attached
to c~nnecting rod 214 inside vent housing 210 and seals fluid passage 216.
Rod 214 is in conta~l with a piston 218. An annular chamber 220 between
S piston 218 and the interior wail of housing 210 is filled with air at atmospheric
pressure. Adjacent the bottom of piston 218, shear pins 2~ are mounted in
shear set 224, and a firing pin 226 extends downward from the botlom of
piston 218. Retainer 228 joins vent housing 200 and tandem sub 60.
PercL ssion ~Je~onator 230 is mounted in retainer 228 in firing head 236 which
is alla~,ed to vent housing 210 and G~l~able of attachment to tandem sub 60.
Sub 60 is attached to perforating charge carrier 22. An ignition transfer 232
at the top of sub 60 is in c~"~ct with detona~ cord 86 passing through
central channel 234 and charge carrier 22, as des~ ibed above. A booster
transfer is located in each tandem sub 60, linkins the detonatin~ cords in the
charge carriers above and below the tande", sub.
Upon application of sufficient hydraulic pressure to the top cf piston
218, vent 212 and piston 218 simultaneously move downward, opening fluid
passage 214 and causing firing pin 226 to contac~ percussion detonator 230.
The ignition of percussion detonator 230 causes a secondary detonation in
ignition transfer 232, which in turn ignites detonating cord 86. Detonating
cord 86 comprises an explosive and runs between the ~nds of each charge
carrier, passing between the bacl~s of the charges and the charge clips
holding the charges in the carrier. Cord 86 ignites the shaped charges 40 in
charge carrier 22 and booster transfer~ which contains a higher grade
explosive than detonating cord 86.
As desc~ib~J above and shown in FIG. 6, an impact detona~or provides
a primary detonation. If the p~,r~ra~ing apparatus is run on a wireline, the
primary detonator could, alternatively, be an electrical de~onator. The
primary detonator ignites a pressure-sensitive chemical in ignition transfer
232, which in tum ignites detonating cord. The de~ona~ing r ord then ignites
the one or more charges 40 in the carrier 22 simultaneously. Each transfer
. .
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booster also contains an explosive for detonating the cord 86 in the adjacent
carrier. The system may be detonated from the top, the bottom, or both.
In operation, the desired number of pe, rora~ing charge carriers 22 are
loaded with cha,yes 40 and are connected with a detonating means, such as
detonating cord 86. A string of apparatus 20 sepa~d~ed by tandem subs 60
is assembled at tne well site as the units are lowered into well 10 at the end
~f a tubin6 strin~, wireline, slick line, coil tubing or any other suitable means
as will be evident to a skilled artisan. Propellant sleeve gO may be cut from
a length of pr.F~"~nt tubular and positioned around p6.forati.~g charge carrier
22 at the well site. The apparatus 20 is then loc~ted in the well with the
pe,rora~ing charges ~1jacent the formation interval 16 So be perforated. The
pe, fora~ing charges 40 are then detona~ed. Upon detonation, each
pe, ~ora~ing cJlarge 40 blasts through a scallop 27 in carrier 32, penetrates
propellant sleeve 90, aeates an opening in casing 12 and penetrates
fo""ation 16 fo""ing pe, rora~ions therein. Propellant sleeve 90 breaks apart
and ignites due to the shock, heat, and pressure of the detG,taled shaped
charge 40. When one or more perforating cl ,aryes p6i ,et, ale the formation,
pressurized ~as gene~ated from the burning of propellant sleeve 90 enters
fo",~alion 16 through the rece~ Itly formed perforations thereby cleaning such
pe, rora~ions of debris. These propellant gases also stimulate formation 16 by
extending the connectivity of formation 16 with well 10 by means of th
pressure of the propellant gases fracturing the formation.
A proppant, such as sand, may be introd~lc~d into well 10 almost
simultaneously with the ignition of the pe, rordtion and propellant apparatus 20of the present invention by any of a variety of suitable means, such as a
conven~ional pe, fi~ aling charge carrier which is equipped with punch charges,
filled with sand and connected in series to detonaling cord 86, as is
c~"""er~ally available under the trademark POWR*PERF from Halli~urton
Energy Services or Advance Completion Technologies Inc. As such sases
gen6~a~1 by buming ~ropell~, It sleeve ~0 esc~rle from the well and enter the
pe~rora~ions formed in formation 16, the sand which is carried into the
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fractures by the propellant gases abrades or scours the walls of the
perforations and fractures thereby enlarging the conduits for fluid flow
between the formation and the well 10. Some of the sand may remain in the
fractures as a proppant thereby preventing the fractures from closing when
the fluid pressure is relieved.
To assist in ignition sleeve 90 may be provided with one or more
grooves or slits 92 which may extend through the entire thickness of sleeve
~0 (FIG. 7) and which may extend slJl,stan~ially the entire length thereof. The
slit(s) is positioned ~ cent a shaped charge 40 such that upon i~nition
shaped charge 40 impacts slit 92 which provides a ~reater surface area for
sleeve 90 to ignite and bum. Preferably slit(s) 92 is tapered (FIG. 8) such
that the slit is wider at the internal surface of sleeve 90 than the external
surface thereof. To achieve a uniform and repe~tahle bum the internal
surface of sleeve 90 may be provided with grooves or channels 94 (FIGS. 9
and 10) to assist in propellant sleeve 90 uniformly breaking upon being
impacted by shaped charge 40. Grooves or channels 94 may have a varied
or a uniform thickness or depth and may be formed in a uniform or random
pattem.
Referring now to FIG. 11 another e"lLo~,."ent of the perforating and
propellant apparatus of the present invention is illustrated generally as 120
and has a p~-fu~ing charge carrier 122 is located between two tande", subs
160 or between a tandem sub 160 and bull plug 166. In this embodiment
carrier 122 is constructed of a water repellant or proof propellant material
which is not physically ~ted by hydrostatic pressures commonly observed
during perforation ~r sut.ter,anean formations and is unreactive or inert to
almost all fluids in particular those fluids encountered in a subterranean well
bore. Preferably the propellant is a cured epoxy, carbon fiber composite
having an oxidi~er incorporated therein such as that ~"""erc,ally available
from HTH Technical Services Inc. of Coeur dAlene Idaho. Carrier 122
c~ntains at least one con~,en~ional pe, fo, d~in9 charge 140 c~p~hle of creat~ngan aperture in the carrierwall 130 well casing 12 and a portion of the interval
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16 in the adjacent subterranean formation. Each perforatin~ char~e 140 is
secured in an opening 136 in perforating charge tube 134 with a clip.
Preferably, tandem sub 160, bull plu~ 166 and char~e tube 134 are
constructed of a material which substantially entirely breaks up or
decomposes, for example thin walled steel, a material which substantially
disintey,a~es, for example a carbon fiber, epoxy composite, upon detonation
of charges 140, or a material which is completely bumable, such as a epoxy,
oxidizer propellant similar to that used for sleeve 90.. If more than one
shaped char~es is ~ Itili~P~ they may be spaced vertically along and angularly
about the axis of the carrier. The charge density is an appropriate density
determined by methods known to those skilled in the art. Common charge
densities range between six and twelve per foot. Detonating cord 186
connects a booster transfer in tandem sub 160 above carrier 122, all charges
40, and end cap ~68 in bull plug 166. As previously disc~lssed with respect
to the embodiment illustrated in FIG. 2, one or more co",binations of an
additional tandem sub and an additional perforating charge carrier could be
mounted below carrier 122. The detonating cord 186 would then be
connected to a boosler transfer in the tandem sub 160 below each additional
perforating charge carrier. In this embodiment, removal of any portion of the
gun from well 10 aRer detonation is obviated since the carrier is ignited and
the charge tube decomposed andJor disintegrated upon detonation of
charge(s) 140. This advantage is especially pronounced in instances where
a very small amount of space, if any, exists below the interval of formation 16
which is perforated.
The following example demonstrates the practic~ and utility of the
present invention, but is not to be construed as limiting the scope thereof.
Example
A 36 inch long, 4 incn outer diameter, 3.4375 inch inner diameter
sleeve of cured epoxy having an oxidizer incorporated therein is positioned
around a 3 foot long, 3.375 inch outer diameter pe,foratin~ gun. This
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perforating gun has 4 shaped charges per foot 60 degree pnasin~ of the
charges and a scalloped carrier. The perforating gun which is equipped with
the propellant sleeve is run into a subterranean well and is positioned by
means of wireline to perforate a 3 feet interval at about 3630 feet. A fast
S pressure gauge is also run. After logging on depth 50 barrels of water are
pumped into the well and the apparatus is ignited. The wireline is noted not
to iump. Upon retrieval the propellant sleeve is missing from the perforating
gun and analysis of the fast gauge pressure data in-iic~tes that a high
pressure pulse is sustained for S milliseconds cornpared to approximately 7
microseconds which is achievable with a conventional perforatin~ gun.
The pe,fo,dling and propellant appar.,tus of the present invention can
be utili~ed with tubing or wireline. The increased strength of the tubing over
wireline allows the use of a longer pe,ro,~ting and propellant apparatus
thereby allowing a longer interval to be pe, fordted and stimulated in a single
trip into a well. A tubing-conveyed apparatus is also cornpatihle with the use
of packers to isolate one or more portions of the well a~ c~nl one or more
intervals of the fo""ation. Thus the method may be used where it is desiréd
for some other reason to limit the pressure to which anot~ ,er portion of the well
is subiected for example in a well where one or more other zones have
already been completed. Further if the well has a high deviation angle from
vertical or is I,~ri o"tal the tubing may be used to push the pe,tordting and
propellant apparatus into the well.
Multiple intervals of a subterranean formation can be perforated and
fractured in a single operation by combining two or more perforating and
propellant apparatus 20 andlor 120 of the present invention with a single
tubing string in a sr~ced apart manner as will be evident to a skilled artisan.
In using the pe,fora~ing and propellant appardl,Js of the present invention
shaped d ,arges co"taininy a smaller amount of highly c~""~ressed explosive
than conventional charges may be employed sinc~ the shaped charge need
only pelfordt~ casing 12 as gases which are generated by burning propellant
extend the perforation and fractures into the subterranean formation.
.. . ..
CA 02251639 1998-10-13
W O 98/10167 PCTrUS97/12594
Accordingly, a greater number of shaped c~arges may be employed in the
apparatus of the present invention than in a conventional perforatin~
apparatus andlor shaped cJlarges which produce larger diameter perforations
than those produc~ by conventional shaped charges may be employed in the
apparatus of the present invention. Further, propellant sleeve 90 or carrier
122 may have proppant dispersed throughout or embedds~ upon the outer
surface ~ereof ~his proppant may also contain a re~iQ~ctive ta8 to assist in
determining the dispersion of the proppanl into the perforations in the
subterranean formation(s).
Although the various embodiments of the appalal~Js of the present
invention have been described and illustrated as being comprised of several
component parts which are secured together in a fluid tight relationship, it is
within the SCOpQ of the prese"~ invention to construct the apparatus 20 or 120
of an integral piece of propellant material which is open to flow of fluids fromthe well bore and in which shaped charges are secured.
While the foregoing piete"ed embodi."ents of the invention have been
desaibed and shown, it is under~tood that the alternatives and motifications,
such as those s~ ~ggest~ and others, may be made thereto and fall within the
scope of the invention.
.,
